Well, I understand lightbulbs better now... lol.I started reading more into the unit I was doing and should have deleted like half of my post, but thanks. The answer about space is more helpful, I don't know why I didn't realize that before, was.. just wondering, I suppose.

And regardless of if it's useful or not if there is an answer it'd be nice to know it. Why not, right?

That level of detail probably didn't make understanding electrons in the everyday environment easier, but it is good to start with some information about the richer story. You can ignore phenomena like these and have a good working model of the world for the purpose of understanding biology.

I don't think humans are good conductors, who told you they were? They do conduct electricity but this does not imply a good conductor. The skin is actually a high resistance. The voltage drop across the body is rather large due to resistance, since V=IR. That is why we feel quite a jolt when we come in contact with a voltage source, the resistance of our bodies drops voltage which we feel as a big jolt. If we were truely good conductors of electricity then very little voltage would be dropped by our body and we would feel very little jolt when zapped...

because it's not made of metal and metals are good conductors because of the their free valence electrons and in the case of transition metals, they have a d orbital which also contribute carrier electrons. There's also something about bandgaps being big in insulators which means there are few carriers at room temperature.

Living one day at a time; Enjoying one moment at a time; Accepting hardships as the pathway to peace; ~Niebuhr